Mining of haplotype-based expressed sequence tag single nucleotide polymorphisms in citrus

Publication Overview
TitleMining of haplotype-based expressed sequence tag single nucleotide polymorphisms in citrus
AuthorsChen C and Gmitter FG.
TypeJournal Article
Journal NameBMC Genomics
Volume14
Year2013
Page(s)746
CitationChen C and Gmitter FG. Mining of haplotype-based expressed sequence tag single nucleotide polymorphisms in citrus. BMC Genomics. 2013. 14: 746.

Abstract

BACKGROUND: Single nucleotide polymorphisms (SNPs), the most abundant variations in a genome, have been widely used in various studies. Detection and characterization of citrus haplotype-based expressed sequence tag (EST) SNPs will greatly facilitate further utilization of these gene-based resources. RESULTS: In this paper, haplotype-based SNPs were mined out of publicly available citrus expressed sequence tags (ESTs) from different citrus cultivars (genotypes) individually and collectively for comparison. There were a total of 567,297 ESTs belonging to 27 cultivars in varying numbers and consequentially yielding different numbers of haplotype-based quality SNPs. Sweet orange (SO) had the most (213,830) ESTs, generating 11,182 quality SNPs in 3,327 out of 4,228 usable contigs. Summed from all the individually mining results, a total of 25,417 quality SNPs were discovered - 15,010 (59.1%) were transitions (AG and CT), 9,114 (35.9%) were transversions (AC, GT, CG, and AT), and 1,293 (5.0%) were insertion/deletions (indels). A vast majority of SNP-containing contigs consisted of only 2 haplotypes, as expected, but the percentages of 2 haplotype contigs varied widely in these citrus cultivars. BLAST of the 25,417 25-mer SNP oligos to the Clementine reference genome scaffolds revealed 2,947 SNPs had "no hits found", 19,943 had 1 unique hit / alignment, 1,571 had one hit and 2+ alignments per hit, and 956 had 2+ hits and 1+ alignment per hit. Of the total 24,293 scaffold hits, 23,955 (98.6%) were on the main scaffolds 1 to 9, and only 338 were on 87 minor scaffolds. Most alignments had 100% (25/25) or 96% (24/25) nucleotide identities, accounting for 93% of all the alignments. Considering almost all the nucleotide discrepancies in the 24/25 alignments were at the SNP sites, it served well as in silico validation of these SNPs, in addition to and consistent with the rate (81%) validated by sequencing and SNaPshot assay. CONCLUSIONS: High-quality EST-SNPs from different citrus genotypes were detected, and compared to estimate the heterozygosity of each genome. All the SNP oligo sequences were aligned with the Clementine citrus genome to determine their distribution and uniqueness and for in silico validation, in addition to SNaPshot and sequencing validation of selected SNPs.
Features
This publication contains information about 25,417 features:
Feature NameUniquenameType
unshiu_19072_contig537_p972_GAunshiu_19072_contig537_p972_GAgenetic_marker
unshiu_19072_contig538_p1723_CGunshiu_19072_contig538_p1723_CGgenetic_marker
unshiu_19072_contig538_p1852_T-unshiu_19072_contig538_p1852_T-genetic_marker
unshiu_19072_contig544_p163_ATunshiu_19072_contig544_p163_ATgenetic_marker
unshiu_19072_contig544_p315_CTunshiu_19072_contig544_p315_CTgenetic_marker
unshiu_19072_contig549_p162_AGunshiu_19072_contig549_p162_AGgenetic_marker
unshiu_19072_contig549_p420_CAunshiu_19072_contig549_p420_CAgenetic_marker
unshiu_19072_contig55_p1432_-Cunshiu_19072_contig55_p1432_-Cgenetic_marker
unshiu_19072_contig552_p183_GAunshiu_19072_contig552_p183_GAgenetic_marker
unshiu_19072_contig552_p231_TCunshiu_19072_contig552_p231_TCgenetic_marker
unshiu_19072_contig552_p519_AGunshiu_19072_contig552_p519_AGgenetic_marker
unshiu_19072_contig552_p552_ATunshiu_19072_contig552_p552_ATgenetic_marker
unshiu_19072_contig552_p888_ATunshiu_19072_contig552_p888_ATgenetic_marker
unshiu_19072_contig552_p911_GAunshiu_19072_contig552_p911_GAgenetic_marker
unshiu_19072_contig567_p134_TGunshiu_19072_contig567_p134_TGgenetic_marker
unshiu_19072_contig567_p165_AGunshiu_19072_contig567_p165_AGgenetic_marker
unshiu_19072_contig567_p282_TCunshiu_19072_contig567_p282_TCgenetic_marker
unshiu_19072_contig567_p71_ATunshiu_19072_contig567_p71_ATgenetic_marker
unshiu_19072_contig567_p87_AGunshiu_19072_contig567_p87_AGgenetic_marker
unshiu_19072_contig569_p752_-Tunshiu_19072_contig569_p752_-Tgenetic_marker
unshiu_19072_contig570_p494_TGunshiu_19072_contig570_p494_TGgenetic_marker
unshiu_19072_contig572_p428_AGunshiu_19072_contig572_p428_AGgenetic_marker
unshiu_19072_contig572_p515_CGunshiu_19072_contig572_p515_CGgenetic_marker
unshiu_19072_contig582_p173_TCunshiu_19072_contig582_p173_TCgenetic_marker
unshiu_19072_contig582_p237_TCunshiu_19072_contig582_p237_TCgenetic_marker

Pages

Stocks
This publication contains information about 23 stocks:
Stock NameUniquenameType
Alemow pepadaAlemow pepadaaccession
Amakusa tangorAmakusa tangoraccession
Carrizo CitrangeCarrizo Citrangeaccession
ClementineClementineaccession
CleopatraCleopatraaccession
Etrog 861-S1Etrog 861-S1accession
Fortune tangorFortune tangoraccession
Hassaku mandarinHassaku mandarinaccession
Hayata mandarinHayata mandarinaccession
Kankitsu Chukanbohon Nou 6 Gou tangorKankitsu Chukanbohon Nou 6 Gou tangoraccession
MexicanMexicanaccession
Orah tangorOrah tangoraccession
Palestine sweet limePalestine sweet limeaccession
PonkanPonkanaccession
Rangur limeRangur limeaccession
Rixiangxia mandarinRixiangxia mandarinaccession
Rough LemonRough Lemonaccession
Satsuma mandarinSatsuma mandarinaccession
summer orangesummer orangeaccession
Sweet OrangeSweet Orangeaccession
Swingle citrumeloSwingle citrumeloaccession
Tahiti limeTahiti limeaccession
Trifoliate orangeTrifoliate orangeaccession
Properties
Additional details for this publication include:
Property NameValue
URLhttp://bmcgenomics.biomedcentral.com/articles/10.1186/1471-2164-14-746